Tactile sensation providing apparatus

ABSTRACT

A tactile sensation providing apparatus determines a touched object and stores touch information based on the object in a memory unit  16 . When an object in current touch information does not match an object in previous touch information stored in the memory unit  16 , the tactile sensation providing unit  12  provides a first tactile sensation. When these objects match each other, the tactile sensation providing unit  12 , based on the current touch information and the previous touch information, provides the first tactile sensation or a second tactile sensation, which is different from the first tactile sensation and provided with lower power than that for providing the first tactile sensation.

CROSS REFERENCE TO RELATED APPLICATION

This application claims priority to and the benefit of Japanese PatentApplication No. 2010-186131 filed on Aug. 23, 2010, the entire contentsof which are incorporated herein by reference.

TECHNICAL FIELD

The present invention relates to a tactile sensation providingapparatus.

BACKGROUND ART

In recent years, a touch panel as an input apparatus such as anoperation unit for receiving an input operation by an operator has beenpopularly used for mobile terminals such as mobile phones and gamingmachines; information equipments such as calculators and ticket vendingmachines; home electric appliances such as microwaves, TV sets, lightingequipments; industrial equipment (FA equipment) and the like. Generally,the touch panel is constituted by using a touch sensor disposed on adisplay unit such as an LCD (Liquid Crystal Display) panel or an EL(Electroluminescence Display) panel.

There are known a variety of types of the touch sensor, such as aresistive film type, a capacitive type, an optical type and the like.However, touch sensors of these types receive a touch input (the inputoperation) by a touch object such as a finger or a stylus pen and,unlike push-button switches, the touch sensors themselves are notphysically displaced when being touched. Since the operator may notobtain feedback to the input when the touch input is received, theoperator may not obtain sufficient operability and may feel stressful.

As such, there are suggested a number of techniques to improve theoperability by, for example, adding a function to provide feedback tothe operator through vibration and the like upon input to the touchsensor and notifying the operator that the input operation is received.For example, there are known techniques that, by changing a pattern of atactile sensation provided to the operator as feedback based on aposition and a pressure on the touch sensor touched, touching durationand the like, increases an information quantity obtained by the operatorthrough tactile sensations in response to an operation and thus furtherimproves the operability (for example, see Patent Documents 1, 2).

RELATED ART DOCUMENTS Patent Documents

Patent Document 1: Japanese Patent Laid-Open No. 2006-155447

Patent Document 2: Japanese Patent Laid-Open No. 2008-033739

SUMMARY OF INVENTION Technical Problem

Incidentally, in order to provide feedback upon reception of the inputto the touch sensor, it is necessary to generate vibration and the likeby an electric device. For example, when a character is input by amulti-tap method, operation images 111, 112 illustrated in FIG. 9 andFIG. 10, for example, are displayed on a display unit 110. The operationimage 111 illustrated in FIG. 9 is used for a Japanese “Kana” input anddisplays a plurality of predetermined keys (objects) of dial keys havingrows of Japanese “Kana” assigned thereto. In this case, every time theinput is received as each of the keys having the row assigned thereto ispushed or pressed, “Kana” characters corresponding to the row aredisplayed in order. For example, every time a key of a “Ka” row receivesthe input, characters “Ka”, “Ki”, “Ku”, “Ke”, and “Ko” in the “Ka” roware displayed in order.

The operation image 112 illustrated in FIG. 10 is used for an Englishlanguage input in English-speaking countries and the like and displays aplurality of predetermined keys (objects) of dial keys having 3 or 4alphabets or a symbol assigned thereto. In this case, every time theinput is received as each of the keys is pushed or pressed, thealphabets and the like assigned thereto are switched in order. Forexample, alphabets “A, B and C” are assigned to a “2” key and, everytime an input to the key is received, uppercase alphabets, lowercasealphabets and a number, that is “A”, “B”, “C”, “a”, “b”, “c”, and “2”are switched in order.

When similar feedback is provided every time the input to the object isreceived as described with reference to FIG. 9 and FIG. 10, powerconsumption increases. Therefore, for the mobile terminal, there is aconcern over shortening a battery life in comparison to a mode providingno feedback. However, neither Patent Document 1 nor Patent Document 2described above considers such power consumption.

Accordingly, an object of the present invention, in consideration ofsuch a condition, is to provide a tactile sensation providing apparatuscapable of efficiently reducing power consumption without compromisingoperability of the input operation.

Solution to Problem

In order to achieve the above object, a tactile sensation providingapparatus according to a first aspect of the present invention includes:

a display image generation unit configured to generate display imageinformation including operation image information having a plurality ofobjects;

a display unit configured to display a display image by inputting thedisplay image information;

a touch sensor disposed on the display unit and configured to detect atouch position and to output touch position information;

a tactile sensation providing unit configured to vibrate a touch face ofthe touch sensor;

a memory unit configured to store information about the objects; and

a tactile sensation control unit configured to control provision of atactile sensation by the tactile sensation providing unit, wherein

the tactile sensation control unit determines the object based on theoperation image information and the touch position information andstores touch information indicating a circumstance of generation of thetouch position information including the information about the object,

when an object in current touch information to be newly stored in thememory unit does not match an object in previous touch informationstored in the memory unit before the current touch information, thetactile sensation control unit controls the tactile sensation providingunit such that a first tactile sensation is provided to a touch objecttouching the touch face, and

when the object in the current touch information matches the object inthe previous touch information, the tactile sensation control unitcontrols the tactile sensation providing unit such that the firsttactile sensation or a second tactile sensation, provided with powerlower than power for providing the first tactile sensation, is providedto the touch object.

A second aspect of the present invention is the tactile sensationproviding apparatus according to the first aspect, wherein

the tactile sensation control unit measures a touching time to input thetouch position information, includes the touching time in the touchinformation and stores the touch information in the memory unit, and

when the object in the current touch information matches the object inthe previous touch information and a predetermined time has passed atthe touching time in the current touch information after the touchingtime in the previous touch information, the tactile sensation controlunit controls the tactile sensation providing unit such that the firsttactile sensation is provided to the touch object.

A third aspect of the present invention is the tactile sensationproviding apparatus according to the first aspect, wherein

the memory unit further stores a predetermined value of the number ofsequential touches for each of the plurality of objects,

the tactile sensation control unit counts the number of sequentialtouches when the object in the current touch information matches theobject in the previous touch information, includes the counted number inthe touch information and stores the touch information in the memoryunit, and

when the object in the current touch information matches the object inthe previous touch information and the counted number of the sequentialtouches in the current touch information matches the predetermined valueof a corresponding object stored in the memory unit, the tactilesensation control unit controls the tactile sensation providing unitsuch that the first tactile sensation is provided to the touch object.

Effect of the Invention

According to the present invention, since the first tactile sensationand the second tactile sensation, which may be substantialized by powerlower than that for the first tactile sensation, are selectivelyprovided, power consumption may be efficiently reduced withoutcompromising operability of an input operation.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a functional block diagram illustrating a configuration of amain part of a tactile sensation providing apparatus according to oneembodiment of the present invention;

FIG. 2 is a diagram illustrating an example of a character input by thetactile sensation providing apparatus illustrated in FIG. 1;

FIG. 3 is a flowchart illustrating an operation of the tactile sensationproviding apparatus illustrated in FIG. 1;

FIG. 4 is a diagram illustrating modes to provide tactile sensations inresponse to touches to an object of a “Ka” row by the tactile sensationproviding apparatus illustrated in FIG. 1;

FIG. 5 is a diagram illustrating modes to provide the tactile sensationsin response to touches to an object of a “Ya” row by the tactilesensation providing apparatus illustrated in FIG. 1;

FIG. 6 is a diagram illustrating an example of an English language inputby the tactile sensation providing apparatus illustrated in FIG. 1;

FIG. 7 is a diagram illustrating modes to provide the tactile sensationsin response to touches to an object of a “5” key in English languageinput by the tactile sensation providing apparatus illustrated in FIG.1;

FIG. 8 is a diagram illustrating modes to provide the tactile sensationsin response to touches to an object of a “9” key in English languageinput by the tactile sensation providing apparatus illustrated in FIG.1;

FIG. 9 is a diagram illustrating an example of an operation image for aJapanese “Kana” input; and

FIG. 10 is a diagram illustrating an example of an operation image forthe English language input.

DESCRIPTION OF EMBODIMENT

An embodiment of the present invention will be described with referenceto the accompanying drawings.

FIG. 1 is a functional block diagram illustrating a configuration of amain part of a tactile sensation providing apparatus according to oneembodiment of the present invention. The tactile sensation providingapparatus includes a touch sensor 11, a tactile sensation providing unit12, a display unit 13, a display image generation unit 14, a tactilesensation control unit 15 and a memory unit 16. The touch sensor 11receives a touch input to the display unit 13 by a touch object such asa finger and the like and is constituted by using, for example, a touchpanel or a touch switch of a known type such as a resistive film type, acapacitive type, an optical type and the like. Touch positioninformation of the touch object such as the finger or a stylus pendetected by the touch sensor 11 is supplied to the tactile sensationcontrol unit 15. Note that a touch operation by the touch objectincludes, depending on the type of the touch sensor, pushing or pressingthe touch object against the touch sensor.

The tactile sensation providing unit 12 vibrates a touch face of thetouch sensor 11 under control of the tactile sensation control unit 15and is constituted by using a known vibration means such as, forexample, a piezoelectric element and an eccentric motor. For example,the tactile sensation providing unit 12 may have a configurationdisclosed in Japanese Patent Laid-Open No. 2010-146507 by the presentapplicant.

The display unit 13 is constituted by using, for example, a liquidcrystal display panel, an organic EL display panel or the like. Thedisplay image generation unit 14 generates display image informationincluding operation image information having a plurality of objectsbased on application and OS (Operating System). The display imageinformation is supplied to the display unit 13 such that the displayunit 13 displays a display image including an operation image having aplurality of objects of input keys such as, for example, push-buttonswitches (push-type button switches). The operation image information issupplied to the tactile sensation control unit 15.

The tactile sensation control unit 15 controls the tactile sensationproviding unit 12 and includes an object determination unit 21 and atiming unit 22. The object determination unit 21, based on the touchposition information from the touch sensor 11 and the operation imageinformation from the display image generation unit 14, determines atouched object. The timing unit 22 times when the object is touched. Theobject (an ID number) determined by the object determination unit 21 anda touching time timed by the timing unit 22 are stored in the memoryunit 16 as touch information. The tactile sensation control unit 15 maybe constituted by using software executed by any suitable processor suchas CPU (Central Processing Unit) or DSP (Digital Signal Processor).

The memory unit 16 stores the touch information including the touchedobject, the touching time and the number of successive touches obtainedfrom the tactile sensation control unit 15 and the object informationincluding a predetermined value of the number of successive touches foreach of the objects. The memory unit 16 may be constituted by using aninternal memory of the tactile sensation control unit 15. Here, thepredetermined value of the number of successive touches for each of theobjects included in the object information represents, for a characterinput, for example, the number of touches to display a first character(character that appears first) in a string assigned to the object forthe second time, depending on an input mode. For example, for a Japanese“Kana” input by a multi-tap method of the operation image 111illustrated in FIG. 9, a first character “Sa” is displayed by a firsttouch and then by a sixth touch to the “Sa” row key (object). In thiscase, accordingly, a predetermined value “6” is stored.

Then, the tactile sensation control unit 15, based on the touch positioninformation from the touch sensor 11, the operation image informationfrom the display image generation unit 14, and the touch information andthe object information stored in the memory unit 16, controls anoperation of the tactile sensation providing unit 12.

FIG. 2 is a diagram illustrating an example of the character input bythe tactile sensation providing apparatus illustrated in FIG. 1 and thetouch information stored in the memory unit 16 at that time. In thisexample, “Nihon” is input by the Japanese “Kana” input by the multi-tapmethod. In this case, first, on a touch face 11 a of the touch sensor11, the touch object (finger in FIG. 2) touches a position correspondingto a key of a “Na” row displayed on the display unit 13 two times, aposition corresponding to a key of a “Ha” row 5 times and then aposition corresponding to a key of a “Wa” row three times.

The tactile sensation providing apparatus according to the presentembodiment controls the operation of the tactile sensation providingunit 12 such that, to the touch object 25 touching the touch face 11 aof the touch sensor 11, each of the first tactile sensation and thesecond tactile sensation is provided once in input of a character “Ni”,the first tactile sensation is provided once and the second tactilesensation four times in input of a character “ho” and the first tactilesensation is provided once and the second tactile sensation is providedtwo times in input of a character “n”. In this case, accordingly, thefirst tactile sensation is provided three times and the second tactilesensation is provided seven times, in total, to the touch object 25.

Here, both of the first tactile sensation and the second tactilesensation may be in any vibration pattern. Also, the second tactilesensation is provided by driving the tactile sensation providing unit 12with lower power than that for providing the first tactile sensation anddifferent from the first tactile sensation. With some driving patterns,accordingly, the operator may feel the second tactile sensation weakerand shorter, or stronger and longer, than the first tactile sensation.

As described above, when the same object is touched, the tactilesensation providing unit 12 is driven by normal power for the firsttouch (including the touch to display the first character after onecycle) and by low power for the following successive touches.Accordingly, the tactile sensation may be sufficiently provided to thetouch object 25 and power consumption may be efficiently reduced.

Also, the memory unit 16, when the key of the “Wa” row is touched threetimes, stores an identification number (ID) of the touched key (object),which is “key_(—)0” in FIG. 2, the touching time and the number oftouches “3” as current touch information, and the ID of the touched key“key_(—)0”, the touching time, and the number of touches “2” as previoustouch information.

The following is a description of the operation of the tactile sensationproviding apparatus according to the present embodiment, with referenceto a flowchart illustrated in FIG. 3.

The tactile sensation control unit 15, when detecting a touch (touchoperation) to the touch sensor 11 based on the touch positioninformation from the touch sensor 11 (S401), stores the current touchinformation in the memory unit 16 (S402). Then, the tactile sensationcontrol unit 15 determines whether the object touched this time (forexample, the identification number (ID) illustrated in FIG. 2) matches apreviously touched object stored in the memory unit 16 (S403).

When determining that the objects are different from each other as aresult (No), the tactile sensation control unit 15 sets the number ofcurrent touches to “1” (S404) and instructs the tactile sensationproviding unit 12 to provide the first tactile sensation (S405). Then,the tactile sensation control unit 15 updates the previous touchinformation by overwriting the previous touch information with thecurrent touch information in the memory unit 16 (S406) and waits for anext touch operation. That is, when an object different from thepreviously touched object is touched, the tactile sensation control unit15 determines that a new input of a character assigned to the differentobject is performed and operates accordingly.

On the other hand, when it is determined at S403 that the object touchedthis time is the same as the previously touched object stored in thememory unit 16 (Yes), the tactile sensation control unit 15 stores, asthe number of current touches, the number obtained by adding 1 to thenumber of previous touches in the memory unit 16 (S407). Then, thetactile sensation control unit 15 determines whether the current touchis occurred within a predetermined time after the previous touch (S408).

When determining that the predetermined time has passed as a result(No), the tactile sensation control unit 15 instructs the tactilesensation providing unit 12 to provide the first tactile sensation atS405. The tactile sensation control unit 15, further, overwrites theprevious touch information with the current touch information in thememory unit 16 at S406 and waits for a next touch. That is, when thepredetermined time has passed at the current touch after the previoustouch, even when the same object is touched, the tactile sensationcontrol unit 15 determines that a new input to the character assigned tothe object is performed and operates accordingly.

The time is used in determination at S408 because, when thepredetermined time has not passed, it is considered that an operation tochange a displayed character by successive touches, such as to displaythe character “Ni” by successively touching the key of the “Na” row, isperformed as illustrated in FIG. 2 and, when the predetermined time haspassed, it is considered that an operation to the same object isperformed after a previous operation is finished.

When determining at S408 that the predetermined time has not passed atthe current touch after the previous touch (Yes), the tactile sensationcontrol unit 15 retrieves the object information of the touched objectfrom the memory unit 16 and obtains the predetermined value forproviding the first tactile sensation (S409). Then, the tactilesensation control unit 15 determines whether the number of touchesmatches the predetermined value (S410).

When determining that the number of touches matches the predeterminedvalue as a result (Yes), the tactile sensation control unit 15determines the number of touches as “1” (S411) and instructs the tactilesensation providing unit 12 to provide the first tactile sensation atS405. The tactile sensation control unit 15, further, overwrites theprevious touch information with the current touch information in thememory unit 16 at S406 and waits for a next touch. That is, the tactilesensation control unit 15 determines the first character comes back asany of the characters assigned to the object is not selected, andoperates accordingly.

Since the tactile sensation control unit 15 instructs to provide thefirst tactile sensation when the first character comes back as describedabove, the operator may know, without viewing the display unit 13, thatthe first character comes back after a cycle of the characters throughthe tactile sensation.

On the other hand, when determining at S410 that the number of touchesdoes not match the predetermined value (No), the tactile sensationcontrol unit 15 instructs the tactile sensation providing unit 12 toprovide the second tactile sensation (S412). Then, the tactile sensationcontrol unit 15 overwrites the previous touch information with thecurrent touch information in the memory unit 16 at S406 and waits for anext touch. That is, the tactile sensation control unit 15 determinesthat one of the characters assigned to the object, other than the firstcharacter, is being selected, and proceeds with the operation.

FIG. 4 and FIG. 5 are diagrams illustrating modes to provide the tactilesensations by the tactile sensation providing apparatus according to thepresent embodiment. In FIG. 4 and FIG. 5, a tactile sensation I and atactile sensation II represent the first tactile sensation and thesecond tactile sensation, respectively. FIG. 4 illustrates the modes toprovide the tactile sensations when the touch object 25 touches a key(object) 26 of a “Ka” row. In this case, there are five characters,“Ka”, “Ki”, “Ku”, “Ke” and “Ko”, which may be input by the touch.Accordingly, the first tactile sensation I is provided when thecharacter “Ka” is selected by the first touch, as well as when thecharacter “Ka” is re-selected thereafter by the sixth touch. By touchesat other numbers, the second tactile sensation II, which may besubstantialized by lower power than that for the first tactile sensationI, is provided.

FIG. 5 illustrates the modes to provide the tactile sensations when thetouch object 25 touches a key (object) 27 of a “Ya” row. In this case,there are six characters, “Ya”, “Yu”, “Yo”, “ya”, “yu” and “yo”, whichmay be input by the touch, that is, there is one more character than the“Ka” row. Accordingly, the first tactile sensation I is provided whenthe character “Ya” is selected by the first touch, as well as when thecharacter “Ya” is re-selected by the seventh touch. By touches at othernumbers, the second tactile sensation II, which may be substantializedby lower power than that for the first tactile sensation I, is provided.

Next, an English language input will be described.

For the English language input, the operation image 112 illustrated inFIG. 10 is displayed based on English language input application. In theoperation image 112 in FIG. 10, the alphabets “ABC”, “DEF”, “GHI” and“JKL” are assigned to a “2” key, a “3” key, a “4” key and a “5” key,respectively. Also, the alphabets “MNO”, “PQRS”, “TUV” and “WXYZ” areassigned to a “6” key, a “7” key, an “8” key and a “9” key,respectively. Every time an input to each of the keys by pushing orpressing is received, uppercase alphabets, lowercase alphabets and anumber are displayed in order. For example, every time an input to the“5” key is received, the alphabets “J”, “K”, “L”, “j”, “k”, “1”, and anumber “5” are displayed in order.

FIG. 1 is a functional block diagram illustrating a configuration of themain part of the tactile sensation providing apparatus according to oneembodiment of the present invention. The tactile sensation providingapparatus includes the touch sensor 11, the tactile sensation providingunit 12, the display unit 13, the display image generation unit 14, thetactile sensation control unit 15 and the memory unit 16. The touchsensor 11 receives the touch input to the display unit 13 by the touchobject such as the finger and the like and is constituted by using, forexample, the touch panel or the touch switch of the known type such asthe resistive film type, the capacitive type, the optical type and thelike. The touch position information of the touch object such as thefinger or the stylus pen detected by the touch sensor 11 is supplied tothe tactile sensation control unit 15. Note that the touch operation bythe touch object includes, depending on the type of the touch sensor,pushing or pressing the touch object against the touch sensor.

The tactile sensation providing unit 12 vibrates the touch face of thetouch sensor 11 under control of the tactile sensation control unit 15and is constituted by using the known vibration means such as, forexample, the piezoelectric element and the eccentric motor. For example,the tactile sensation providing unit 12 may have the configurationdisclosed in Japanese Patent Laid-Open No. 2010-146507 by the presentapplicant.

The display unit 13 is constituted by using, for example, the liquidcrystal display panel, the organic EL display panel or the like. Thedisplay image generation unit 14 generates the display image informationincluding the operation image information having a plurality of objectsbased on application and OS (Operating System). The display imageinformation is supplied to the display unit 13 such that the displayunit 13 displays the display image including the operation image havinga plurality of objects of input keys such as, for example, thepush-button switches (push-type button switches). The operation imageinformation is supplied to the tactile sensation control unit 15.

The tactile sensation control unit 15 controls the tactile sensationproviding unit 12 and includes the object determination unit 21 and thetiming unit 22. The object determination unit 21, based on the touchposition information from the touch sensor 11 and the operation imageinformation from the display image generation unit 14, determines thetouched object. The timing unit 22 times when the object is touched. Theobject (ID number) determined by the object determination unit 21 andthe touching time timed by the timing unit 22 are stored in the memoryunit 16 as the touch information. The tactile sensation control unit 15may be constituted by using software executed by any suitable processorsuch as the CPU (Central Processing Unit) or the DSP (Digital SignalProcessor).

The memory unit 16 stores the touch information including the touchedobject, the touching time and the number of successive touches obtainedfrom the tactile sensation control unit 15 and the object informationincluding the predetermined value of the number of successive touchesfor each of the objects. The memory unit 16 may be constituted by usingthe internal memory of the tactile sensation control unit 15. Here, thepredetermined value of the number of successive touches for each of theobjects included in the object information represents, for the characterinput, for example, the number of touches to display the first character(character that appears first) in the string assigned to the object forthe second time, depending on the input mode. For example, for the “2”key (object) in the operation image 112 illustrated in FIG. 10, thefirst character “A” is displayed by the first touch and then by theeighth touch. In this case, accordingly, a predetermined number “8” isstored.

Then, the tactile sensation control unit 15, based on the touch positioninformation from the touch sensor 11, the operation image informationfrom the display image generation unit 14 and the touch information andthe object information stored in the memory unit 16, controls theoperation of the tactile sensation providing unit 12.

FIG. 6 is a diagram illustrating an example of the English languageinput by the tactile sensation providing apparatus illustrated in FIG. 1and the touch information stored in the memory unit 16 at that time. Inthis example, a word “Key” is input. In this case, first, the touchobject 25 (the finger in FIG. 6), on the touch face 11 a of the touchsensor 11, touches the “5” key displayed on the display unit 12 twotimes, the “3” key five times and then the “9” key seven times.

The tactile sensation providing apparatus according to the presentembodiment controls the operation of the tactile sensation providingunit 12 such that, to the touch object 25 touching the touch face 11 aof the touch sensor 11, each of the first tactile sensation and thesecond tactile sensation is provided once in input of “K”, the firsttactile sensation is provided once and the second tactile sensation isprovided four times in input of “e”, and the first tactile sensation isprovided once and the second tactile sensation is provided six times ininput of “y”. In this case, accordingly, the first tactile sensation isprovided three times and the second tactile sensation is provided eleventimes, in total, to the touch object 25.

Here, both of the first tactile sensation and the second tactilesensation may be in any vibration pattern. Also, the second tactilesensation is provided by driving the tactile sensation providing unit 12with lower power than that for providing the first tactile sensation anddifferent from the first tactile sensation. With some driving patterns,accordingly, the operator may feel the second tactile sensation weakerand shorter, or stronger and longer, than the first tactile sensation.

As described above, when the same object is touched, the tactilesensation providing unit 12 is driven by normal power for the firsttouch (including the touch to display the first character after onecycle) and by low power for the following successive touches.Accordingly, the tactile sensation may be sufficiently provided to thetouch object 25 and power consumption may be efficiently reduced.

Also, the memory unit 16, when the “9” key is touched seven times,stores the identification number (ID) of the touched key (object), whichis “key_(—)9” in FIG. 6, the touching time and the number of touches “7”as the current touch information, and the ID of the touched key“key_(—)9”, the touching time and the number of touches “6” as theprevious touch information.

The following is a description of the operation of the tactile sensationproviding apparatus according to the present embodiment, with referenceto the flowchart illustrated in FIG. 3.

The tactile sensation control unit 15, when detecting the touch (touchoperation) to the touch sensor 11 based on the touch positioninformation from the touch sensor 11 (S401), stores the current touchinformation in the memory unit 16 (S402). Then, the tactile sensationcontrol unit 15 determines whether the object touched this time (forexample, the identification number (ID) illustrated in FIG. 6) and thepreviously touched object stored in the memory unit 16 (S403).

When determining that the objects are different from each other as aresult (No), the tactile sensation control unit 15 sets the number ofcurrent touches to “1” (S404) and instructs the tactile sensationproviding unit 12 to provide the first tactile sensation (S405). Then,the tactile sensation control unit 15 updates the previous touchinformation by overwriting the previous touch information with thecurrent touch information in the memory unit 16 (S406) and waits for anext touch operation. That is, when an object different from thepreviously touched object is touched, the tactile sensation control unit15 determines that a new input of a character assigned to the differentobject is performed and operates accordingly.

On the other hand, when it is determined at S403 that the object touchedthis time is the same as the previously touched object stored in thememory unit 16 (Yes), the tactile sensation control unit 15 stores, asthe number of current touches, the number obtained by adding 1 to thenumber of previous touches in the memory unit 16 (S407). Then, thetactile sensation control unit 15 determines whether the current touchis occurred within the predetermined time after the previous touch(S408).

When determining that the predetermined time has passed as a result(No), the tactile sensation control unit 15 instructs the tactilesensation providing unit 12 to provide the first tactile sensation atS405. The tactile sensation control unit 15, further, overwrites theprevious touch information with the current touch information in thememory unit 16 at S406 and waits for a next touch. That is, when thepredetermined time has passed at the current touch after the previoustouch, even when the same object is touched, the tactile sensationcontrol unit 15 determines that a new input to the character assigned tothe object is performed and operates accordingly.

The time is used in determination at S408 because, when thepredetermined time has not passed, it is considered that an operation tochange a displayed character by successive touches, such as to displaythe character “K” by successively touching the “5” key, is performed asillustrated in FIG. 6 and, when the predetermined time has passed, it isconsidered that an operation to the same object is performed after aprevious input is finished.

When determining at S408 that the predetermined time has not passed atthe current touch after the previous touch (Yes), the tactile sensationcontrol unit 15 retrieves the object information of the touched objectfrom the memory unit 16 and obtains the predetermined value forproviding the first tactile sensation (S409). Then, the tactilesensation control unit 15 determines whether the number of touchesmatches the predetermined value (S410).

When determining that the number of touches matches the predeterminedvalue as a result (Yes), the tactile sensation control unit 15determines the number of touches as “1” (S411) and instructs the tactilesensation providing unit 12 to provide the first tactile sensation atS405. The tactile sensation control unit 15, further, overwrites theprevious touch information with the current touch information in thememory unit 16 at S406 and waits for a next touch. That is, the tactilesensation control unit 15 determines that the first character comes backas any of the characters assigned to the object is not selected, andproceeds with the operation.

Since the tactile sensation control unit 15 instructs to provide thefirst tactile sensation when the first character comes back as describedabove, the operator may know, without viewing the display unit 13, thatthe first character comes back after the cycle of the characters throughthe tactile sensation.

On the other hand, when determining at S410 that the number of touchesdoes not match the predetermined value (No), the tactile sensationcontrol unit 15 instructs the tactile sensation providing unit 12 toprovide the second tactile sensation (S412). Then, the tactile sensationcontrol unit 15 overwrites the previous touch information with thecurrent touch information in the memory unit 16 at S406 and waits for anext touch. That is, the tactile sensation control unit 15 determinesthat one of the characters assigned to the object, other than the firstcharacter, is being selected and proceeds with the operation.

FIG. 7 and FIG. 8 are diagrams illustrating modes to provide the tactilesensations by the tactile sensation providing apparatus according to thepresent embodiment. In FIG. 7 and FIG. 8, the tactile sensation I andthe tactile sensation II represent the first tactile sensation and thesecond tactile sensation, respectively. FIG. 7 illustrates the modes toprovide the tactile sensations when the touch object 25 touches the “5”key (an object 31). In this case, there are seven characters, “J”, “K”,“L”, “j”, “k”, “l” and “5”, which may be input by the touch.Accordingly, the first tactile sensation I is provided when thecharacter “J” is selected by the first touch, as well as when thecharacter “J” is re-selected by the eighth touch. By touches at othernumbers, the second tactile sensation II, which may be substantializedby lower power than that for the first tactile sensation I, is provided.

FIG. 8 illustrates the modes to provide the tactile sensations when thetouch object 25 touches the “9” key (an object 32). In this case, thereare nine characters, “W”, “X”, “Y”, “Z”, “w”, “x”, “y”, “z” and “9”,which may be input by the touch, that is, there are two more charactersthan the “5” key. Accordingly, the first tactile sensation I is providedwhen the character “W” is selected by the first touch, as well as whenthe character “W” is re-selected by the tenth touch. By touches at othernumbers, the second tactile sensation II, which may be substantializedby lower power than that for the first tactile sensation I, is provided.

According to the tactile sensation providing apparatus of the presentembodiment, as the tactile sensation to be provided at an input, thefirst tactile sensation and the second tactile sensation, which may besubstantialized by lower power than that for the first tactilesensation, are selectively provided. Accordingly, in comparison to amode providing the first tactile sensation every time, power consumptionmay be efficiently reduced. Therefore, when the tactile sensationproviding apparatus is applied to the mobile terminals using batteriesas power source, a battery life may be improved. Further, since thefirst tactile sensation and the second tactile sensation are providedbased on a change of the touched object, the number of touches and atime between touches, the operator may recognize information about thetouch based on the tactile sensation provided. Accordingly, theoperability may be further improved.

It is to be understood that the present invention is not limited to theembodiment set forth above but may be varied or changed in a multiple ofmanners within the spirit of the present invention.

REFERENCE SIGNS LIST

-   11 touch sensor-   11 a touch face-   12 tactile sensation providing unit-   13 display unit-   14 display image generation unit-   15 tactile sensation control unit-   16 memory unit-   21 object determination unit-   22 timing unit-   25 touch object-   26, 27, 31, 32 key (object)

1. A tactile sensation providing apparatus comprising: a display imagegeneration unit configured to generate display image informationincluding operation image information having a plurality of objects; adisplay unit configured to display a display image by inputting thedisplay image information; a touch sensor disposed on the display unitand configured to detect a touch position and to output touch positioninformation; a tactile sensation providing unit configured to vibrate atouch face of the touch sensor; a memory unit configured to storeinformation about the objects; and a tactile sensation control unitconfigured to control provision of a tactile sensation by the tactilesensation providing unit, wherein the tactile sensation control unitdetermines the object based on the operation image information and thetouch position information and stores touch information indicating acircumstance of generation of the touch position information includingthe information about the object, when an object in current touchinformation to be newly stored in the memory unit does not match anobject in previous touch information stored in the memory unit beforethe current touch information, the tactile sensation control unitcontrols the tactile sensation providing unit such that a first tactilesensation is provided to a touch object touching the touch face, andwhen the object in the current touch information matches the object inthe previous touch information, the tactile sensation control unitcontrols the tactile sensation providing unit such that the firsttactile sensation or a second tactile sensation, provided with powerlower than power for providing the first tactile sensation, is providedto the touch object.
 2. The tactile sensation providing apparatusaccording to claim 1, wherein the tactile sensation control unitmeasures a touching time to input the touch position information,includes the touching time in the touch information and stores the touchinformation in the memory unit, and when the object in the current touchinformation matches the object in the previous touch information and apredetermined time has passed at the touching time in the current touchafter the touching time in the previous touch information, the tactilesensation control unit controls the tactile sensation providing unitsuch that the first tactile sensation is provided to the touch object.3. The tactile sensation providing apparatus according to claim 1,wherein the memory unit further stores a predetermined value of thenumber of sequential touches for each of the plurality of objects, thetactile sensation control unit counts the number of sequential toucheswhen the object in the current touch information matches the object inthe previous touch information, includes the counted number in the touchinformation and stores the touch information in the memory unit, andwhen the object in the current touch information matches the object inthe previous touch information and the counted number of the sequentialtouches in the current touch information matches the predetermined valueof a corresponding object stored in the memory unit, the tactilesensation control unit controls the tactile sensation providing unitsuch that the first tactile sensation is provided to the touch object.